CN205102631U - A water conservation heat exchanger for cooling tower - Google Patents

Abstract

The utility model discloses a water conservation heat exchanger for cooling tower, including the heat conductor, be provided with the airflow channel and the runner of mutual isolation on the heat conductor, the upper end of heat conductor is formed with the water inlet that communicates with the runner, and the lower extreme is formed with the delivery port with the runner intercommunication, and the front end is formed with the air inlet with the runner intercommunication, and the rear end is formed with the gas outlet with the runner intercommunication. Compared with the prior art, the utility model discloses make under the same thermal condition of hot water release reducible hydrothermal evaporation loss to can reach the effect of water conservation, and, when being applied to the cooling tower, because the utility model discloses exportable xeothermic air current and damp and hot air current still help playing the effect of fog dispersal.

Description

For the water saving heat exchanger of cooling tower

Technical field

The utility model relates to a kind of water saving heat exchanger for cooling tower.

Background technology

Set up in cooling tower and be equipped with heat exchanger, carry out heat exchange for dry and cold air-flow and hot water.Existing heat exchanger is only provided with aqueous vapor passage, and in use, hot water, dry and cold air-flow flow in opposite directions from the two ends of gas-water channel respectively, thus make hot water and cold dry air carry out heat exchange in gas-water channel, to realize the cooling of hot water.But in heat exchanging process, while air-flow takes away heat, part water becomes steam and is also taken away by air-flow, thus causes a large amount of water by evaporation loss, consumes a large amount of water resources.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of water saving heat exchanger for cooling tower, it by adopting the combination of gas channel and runner to design on heat carrier, evaporative heat loss and heat loss through conduction can be adopted, thus evaporation of water loss can be reduced when making hot water discharge identical heat, effectively can save water resource.

For solving the problem, the technical scheme that the utility model adopts is as follows:

For the water saving heat exchanger of cooling tower, comprise heat carrier, described heat carrier is provided with mutually isolated gas channel and runner; The upper end of described heat carrier is formed with the water inlet with flow passage, and lower end is formed with the delivery port with flow passage, and front end is formed with the air inlet with flow passage, and rear end is formed with the gas outlet with flow passage.

Described heat carrier comprises the first heat-conducting part along being alternately arranged successively from heat carrier left end to the direction of right-hand member and the second heat-conducting part; Heat conduction baffle is provided with between first heat-conducting part of arbitrary neighborhood and the second heat-conducting part; Described first heat-conducting part is provided with described gas channel; Described second heat-conducting part is provided with described runner, and respectively with the water inlet of this flow passage, delivery port, air inlet, gas outlet.

First heat-conducting part, the second heat-conducting part are filling block.

The inlet end of described gas channel is positioned on the front end of heat carrier, and outlet side is positioned on the rear end of heat carrier.

This gas channel is used for for airflow passes, and described water inlet is used for supplying hot water and flows into.

Compared to existing technology, the beneficial effects of the utility model are:

In use, can toward water inlet, air inlet passes into hot water and dry and cold air-flow respectively, and dry and cold air-flow is passed in gas channel, hot water in runner is directly contacted with dry and cold air-flow and carries out heat exchange, and the partial heat of hot water is taken away by this air-flow, thus can evaporative heat loss be realized, and the heat of hot water is also passed to the dry and cold air-flow in gas channel by heat carrier, heat is taken away with the dry and cold air-flow by gas channel, and due to hot water this partial heat with conduction mode dispel the heat, evaporation of water loss can be reduced, thus, compared with prior art, the utility model is when making hot water discharge identical heat, the evaporation loss of hot water can be reduced, thus the effect of water saving can be reached, and, when being applied to cooling tower, due to the exportable xeothermic air-flow of the utility model and damp and hot air-flow, also contribute to the effect playing fog dispersal.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Wherein, 1, heat carrier; 11, the first heat-conducting part; 111, gas channel; 12, the second heat-conducting part; 121, runner; 122, water inlet; 13, dividing plate.

Detailed description of the invention

Below, by reference to the accompanying drawings and detailed description of the invention, the utility model is described further:

As shown in Figure 1, comprise heat carrier 1 for of the present utility model for the water saving heat exchanger of cooling tower, described heat carrier 1 is provided with mutually isolated gas channel 111 and runner 121; This gas channel 111 is for supplying airflow passes; The upper end of described heat carrier 1 is formed with the water inlet 122 be communicated with runner 121, and lower end is formed with the delivery port be communicated with runner 121, and front end is formed with the air inlet be communicated with runner 121, and rear end is formed with the gas outlet be communicated with runner 121.Described water inlet 122 flows into for supplying hot water.Wherein, gas channel 111 and runner 121 mutually isolated, that is, gas channel 111 is not communicated with runner 121.

In use, hot water and dry and cold air-flow can be passed into respectively toward water inlet 122, air inlet, and dry and cold air-flow is passed in gas channel 111, hot water in runner 121 directly contacts with dry and cold air-flow and carries out heat exchange, and the partial heat of hot water is taken away by this air-flow, thus can evaporative heat loss be realized, and the heat of hot water is also passed to the dry and cold air-flow in gas channel 111 by heat carrier 1, and take away this partial heat by the dry and cold air-flow of gas channel 111, afterwards, the hot water in runner 121, dry and cold air-flow flow out from the delivery port of runner 121, gas outlet.And dispel the heat in the mode conducting to the dry and cold air-flow in gas channel 111 due to the partial heat of hot water, evaporation of water loss can be reduced, thus, compared with prior art, the utility model is when making hot water discharge identical heat, the evaporation loss of hot water can be reduced, thus the object of water saving can be reached; And, when being applied to cooling tower, due to the exportable xeothermic air-flow of the utility model and damp and hot air-flow, thus certain elimination fog effect can be played.

Preferably, described heat carrier 1 comprises the first heat-conducting part 11 and the second heat-conducting part 12 be alternately arranged successively along the direction (A to) from heat carrier 1 left end to right-hand member; Heat conduction baffle 13 is provided with between first heat-conducting part 11 of arbitrary neighborhood and the second heat-conducting part 12; Described first heat-conducting part 11 is provided with described gas channel 111; Described second heat-conducting part 12 is provided with described runner 121, and the water inlet 122 be communicated with this runner 121 respectively, delivery port, air inlet, gas outlet.And by adopting said structure, processing and fabricating can be convenient to, and, also can increase the amount of cooling water of hot water, thus can increase work efficiency.In the present embodiment, the quantity of described first heat-conducting part 11, second heat-conducting part 12 is all set to four, and the quantity of described first heat-conducting part 11, second heat-conducting part 12 is not restricted to four, can set according to actual demand.

Concrete, the first heat-conducting part 11, second heat-conducting part 12 is filling block.Wherein, the material of described filling block can adopt metal, composite etc., and can adopt the connected modes such as bonding, welding, riveted joint, serial connection between each packing sheet in filling block.

The inlet end of described gas channel 111 is positioned on the front end of heat carrier 1, and outlet side is positioned on the rear end of heat carrier 1.And by adopting said structure, can be convenient in gas channel 111, runner 121, send into air-flow simultaneously.

To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of the utility model claim.

Claims (5)

1. for the water saving heat exchanger of cooling tower, it is characterized in that: comprise heat carrier, described heat carrier is provided with mutually isolated gas channel and runner; The upper end of described heat carrier is formed with the water inlet with flow passage, and lower end is formed with the delivery port with flow passage, and front end is formed with the air inlet with flow passage, and rear end is formed with the gas outlet with flow passage.

2. as claimed in claim 1 for the water saving heat exchanger of cooling tower, it is characterized in that: described heat carrier comprises the first heat-conducting part along being alternately arranged successively from heat carrier left end to the direction of right-hand member and the second heat-conducting part; Heat conduction baffle is provided with between first heat-conducting part of arbitrary neighborhood and the second heat-conducting part; Described first heat-conducting part is provided with described gas channel; Described second heat-conducting part is provided with described runner, and respectively with the water inlet of this flow passage, delivery port, air inlet, gas outlet.

3., as claimed in claim 2 for the water saving heat exchanger of cooling tower, it is characterized in that: the first heat-conducting part, the second heat-conducting part are filling block.

4., as claimed in claim 1 for the water saving heat exchanger of cooling tower, it is characterized in that: the inlet end of described gas channel is positioned on the front end of heat carrier, and outlet side is positioned on the rear end of heat carrier.

5. as claimed in claim 1 for the water saving heat exchanger of cooling tower, it is characterized in that: this gas channel is used for for airflow passes, described water inlet is used for supplying hot water and flows into.